CN2535994Y - Electroluminescent wire - Google Patents

Abstract

The utility model discloses an electroluminescence line which comprises a center electrode composed of at least one linear conductor, wherein the outside of the center electrode is covered with an insulating medium layer whose outside is covered with a luminescent substance layer composed of the mixture of fluorescent powder and bonding agent, and the outside of the luminescent substance layer is covered with a transparent conducting layer composed of nanometer grade conducing material whose particle diameter is less than or equal to 20 nanometer, at the same time, the nanometer grade conducing material to constitute the transparent conducting layer is filled in pore space formed by the mixture of fluorescent powder and bonding agent to constitute the luminescent substance layer, and the transparent conducting layer is spirally winded by an outer electrode composed of at least one linear conductor. The electroluminescence line has simple structure layer and easy manufacturing technique, and brightness can be greatly and stably improved.

Description

Electro luminescence line

Technical field

The utility model relates to electroluminescent light source, refers to a kind of electro luminescence line of flexible cable shape particularly.

Background technology

Electroluminescent light source is a kind of AC field that produces by the alternating voltage that is added in the two poles of the earth, excitation electron impact fluroescence material, thus cause transition, the variation, compound of the electronic energy utmost point, and then launch the light source of high efficiency cold light.At present, widely used electroluminescent light source mainly contains types such as EL sheet and electro luminescence line.The phosphor layer of known electro luminescence line is mixed by fluorescent grain and corresponding binding material, this layer can stay various micro-pores that are full of air inevitably in the process of moulding, these micro-pores not only can reduce the electric capacity of electro luminescence line significantly, particularly cause the electric field around hole significantly to weaken, form many blackening points, but also can on isolychn, form a plurality of discontinuous optics breakpoints, cause light to reflect, scattering even total reflection phenomenon, cause the loss of luminous energy, finally reduce the brightness of electro luminescence line.In order to solve the defective that hole brought in the above-mentioned phosphor layer, publication number provides a kind of cable-shaped electroluminescent light source for the Chinese invention patent ublic specification of application of CN1182343A, this light source by the wire core conductor, be looped around electric insulation layer on the wire core conductor, be looped around phosphor layer on the electric insulation layer, be looped around transparency conducting layer on the phosphor layer, fill up the transparent filler in the phosphor layer hole and the barrier layer of transparent filler etc. and constitute, its key points in design is to adopt filler to fill up above-mentioned micro pores.But what this filler was mainly selected for use is the liquid that viscosity is arranged, also there is the problem of following several aspects in it: one, because formed pore size differs in the phosphor layer, and the particle diameter of the liquid filler that is adopted tends to the diameter greater than a part of hole, will inevitably can not get filling by some hole like this, cause the optical energy loss at this part hole place still to exist, the blackening point can't be eliminated; Its two, even be full of liquid filler in the hole, come the activating fluorescent particle light-emitting because the filler of this neutrality can not form new electric field around hole, so its brightness improving amplitude to electro luminescence line is limited; They are three years old, liquid filler both can penetrate in the hole easily, also can from hole, leak out at an easy rate or evaporate, in order effectively to stop the loss of liquid filler, outside phosphor layer, also need to apply a kind of transparent viscosity insulating material as the barrier layer, so not only increased the complexity of electro luminescence line layer of structure, but also increased the difficulty of its manufacture craft, the more important thing is that its barrier layer also stops when stopping filler or scattering the part light source, influenced the overall brightness of electro luminescence line.

Summary of the invention

The purpose of this utility model is exactly the deficiency that will solve in the above-mentioned background technology, and the electro luminescence line that a kind of layer of structure is simple, production technology easy and the big web stabilization of brightness energy improves is provided.

For realizing this purpose, the electro luminescence line that the utility model is designed, include the central electrode that constitutes by at least one strand form conductor, be coated with the insulating medium layer that constitutes by electrical insulating material in the outside of central electrode, be coated with the luminescent substance layer that constitutes by fluorescent powder and binder mixtures in the outside of insulating medium layer, be coated with the transparency conducting layer that the nano-level conducting material by particle diameter≤20nm constitutes in the outside of luminescent substance layer, the nano-level conducting material that constitutes transparency conducting layer also is filled in the fluorescent powder and the formed hole of binder mixtures that constitutes the luminescent substance layer simultaneously, and spiral is wound with the external electrode that is made of at least one linear conductor on transparency conducting layer.

Say that further the preferable selection of the particle diameter of the nano-level conducting material of above-mentioned formation transparency conducting layer can be≤10nm, better selection can≤5nm, best selection can be in the scope of 0.1～2nm.And the tin indium oxide particulate is the most preferably scheme of this nano-level conducting material.

Advantage of the present utility model is: through nanometer handle the back particle diameter the electric conducting material below the 20nm be coated in as transparency conducting layer constitute on the luminescent substance layer by fluorescent powder and binder mixtures after, because this nano particle group has very strong conductive characteristic, and the particle diameter of nano particle is the diameter of most holes in the luminescent substance layer again, wherein some nano particle group will be automatically, and irreversibly infiltration is filled in the hole or is adsorbed on securely on the wall of hole, above-mentioned hole has obtained that transparent conductive material is nonvolatil to be filled up so on the one hand, improve the capacitance of luminous element significantly, reduced the refraction scattering and the reflection loss of luminous energy; Near the hole electric field is able to further enhancing under the reinforcement that charged nano particle is rolled into a ball on the other hand, thereby has greatly excited the fluorescent grain around the hole to launch stronger luminous energy.Again owing to have extremely strong affinity characteristic and good light transmission features between this nano particle group, can form fine and smooth fine and close survivable transparency conducting layer, thereby the light that the luminescent substance layer is produced has very reliable and stable optics continuation property, and can emit by this transparency conducting layer unobstructedly.Simultaneously, do not need to be provided with again the filler barrier layer through above-mentioned improved isolychn, can avoid the influence of barrier layer effectively like this, make its layer of structure very simple again light, corresponding manufacture craft is also greatly simplified, thereby its brightness can be greatly enhanced.

Description of drawings

Fig. 1 is a kind of transversary schematic diagram with electro luminescence line of an external electrode;

Fig. 2 is the structure for amplifying schematic diagram of luminescent substance layer in the electro luminescence line shown in Figure 1;

Fig. 3 is the vertical structure schematic diagram of electro luminescence line shown in Figure 1;

Fig. 4 is a kind of vertical structure schematic diagram with electro luminescence line of two external electrodes.

Embodiment

Below in conjunction with accompanying drawing specific embodiment of the utility model is described in further detail:

Electro luminescence line as shown in Figure 1 to Figure 3 has the central electrode 1 that is made of the multiply linear conductor, and the multiply linear conductor is combined the intensity that has better pliability and Geng Gao than sub-thread linear conductor.Be coated with the insulating medium layer 3 that one deck is made of electrical insulating material in the outside of central electrode 1, electrical insulating material is preferably selected resin lacquer mixture for use, the filming performance and the electrical insulation capability of resin lacquer mixture are fabulous, can make super overlay and not fragile, thereby the electric field of isolychn is forever kept in balance, guarantee the light continous-stable of being launched.Be coated with the luminescent substance layer 5 that one deck is made of fluorescent powder and binder mixtures in the outside of insulating medium layer 3, can form many fine pores not of uniform size 51 by nature in fluorescent powder and the binder mixtures.Be coated with the transparency conducting layer 7 that one deck is made of nano-level conducting particle cluster 71 in the outside of luminescent substance layer 5, the nano-level conducting particle cluster 71 that constitutes transparency conducting layer 7 also is filled in the fluorescent powder and the formed hole 51 of binder mixtures that constitutes luminescent substance layer 5 simultaneously.In general, the particle diameter of above-mentioned nano-level conducting particle cluster 71 is answered≤20nm at least, and is that particle diameter is the smaller the better.For example particle diameter≤10nm or≤during 5nm, its effect of infiltrating filling pore 51 with and form compactness, the light transmission of transparency conducting layer 7 will be more and more better, this is because the compatibility between more little its particle group of particle diameter is strong more, adhesion is high more, and easy more infiltration also is adsorbed in the hole of relatively large diameter securely.But the particle diameter of nano-level conducting particle cluster too hour, will cause processing cost significantly to improve, and is unfavorable for the commercialization production in enormous quantities of this product, thereby be the selection of cost performance the best with the scope that the particle diameter of nano-level conducting particle cluster is limited to 0.1～2nm.Simultaneously we find conductive oxide tin indium oxide powder after nanometer is handled during as transparency conducting layer 7, the stable arrangement of its layer compact structure and its nano particle group all seem very obviously to effectively filling up of hole and be outstanding, thus transparency conducting layer 7 to select nano level tin indium oxide material for use be optimum.Coarse pitch ground spiral is wound with the external electrode 9 that is made of single line shape conductor on transparency conducting layer 7, this external electrode 9 is contacted with transparency conducting layer 7, the equilibrium of 9 pairs of isolychn electric fields of external electrode that this coarse pitch twines has good booster action, and is then very little to the influence that light penetrates.Also be coated with the protective layer 11 that one deck is made of the transparent flexible polymer in the outside of transparency conducting layer 7, protective layer 11 can reduce the injury of outer bound pair isolychn, prolongs the useful life of isolychn.Test shows: the above-mentioned comparable brightness raising 20～40% that the electro luminescence line on barrier layer is arranged of brightness that the electro luminescence line on barrier layer need not be set.

Electro luminescence line has as shown in Figure 4 only been Duoed single line shape conductor than electro luminescence line shown in Figure 1, and its adopts two continuous linear conductors to constitute 9, two continuous linear conductor cross-helicities of external electrode and is wrapped on the transparency conducting layer 7.Like this, one side can improve electric field strength by the increase magnitude of current, and then improves the brightness of isolychn, and the electrode of cross-helicity layout also helps the balance of electric field and stablizes on the other hand, under the impaired situation of single line shape conductor, can guarantee that also isolychn is normally luminous simultaneously.

The making of above-mentioned electro luminescence line is finished by following technical process:

Step 1: select for use strands of metal wire as the material of making central electrode, preferably diameter is 17 strands of copper wires or the filamentary silver of 0.05mm, lumps together formation central electrode 1 by helical form layout knob.Such combination can make isolychn both have good flexible, has very high intensity again, can also form the strongest electric field situation, and brightness stability is reliable in actual applications to make the isolychn finished product, and deformation performance is good, is easy to braiding, layout and makes various patterns.At the outside of the central electrode 1 that weaves coating one deck insulation resin lacquer mixture, constitute insulating medium layer 3, the optimum thickness of insulating medium layer 3 is 5～10 μ m.Certainly, per share wire also can carry out layout behind the independent coated insulation resin lacquer mixture again.

Step 2: the outside at above-mentioned insulating medium layer 3 covers fluorescent powder and binder mixtures, constitutes luminescent substance layer 5.Fluorescent powder generally can be selected the zinc sulphide microparticle that contains manganese and/or copper for use, binding agent generally can be selected cyanoethyl starch or cyanethyl cellulose for use, with acetone or other feasible organic solvents fluorescent powder and binder mixtures are dissolved as liquid state, the central electrode 1 that will be coated with insulating medium layer 3 then is immersed in the above-mentioned liquefied mixture, when after forming certain thickness cover layer on the insulating medium layer 3, it is taken out and heating, drying, obtain solid state fluorescence powder and binder mixtures layer that organic solvent has volatilized, promptly the luminescent substance layer 5.The optimum thickness of luminescent substance layer 5 is 40～80 μ m, is formed with the hole 51 that is full of air naturally in the luminescent substance layer 5 at this moment.Certainly, also above-mentioned liquefied mixture directly can be coated on the insulating medium layer 3 and form luminescent substance layer 5.

Step 3: apply the nano-level conducting material of particle diameter≤20nm in the outside of luminescent substance layer 5, constitute transparency conducting layer 7.The preferred indium oxide tin powder of nano-level conducting material, the preferred 0.1～2nm of powder diameter scope have been mentioned in the front.The tin indium oxide powder is processed into the nanometer particle group 71 that meets above-mentioned requirements with high energy ball mill, after relevant bonding agent such as acetic acid ethyl fluid allotment, directly be coated on the luminescent substance layer 5, the process dried can form transparency conducting layer 7 as thin as a wafer, the automatic wall surface that infiltrates in the holes 51 that also forever are filled in the luminescent substance layer 5 or firmly be adsorbed on hole 51 of a part of tin indium oxide nanometer particle group's 71 meetings in this step.

Step 4: spiral twines single line shape conductor as shown in Figure 3 on transparency conducting layer 7, or cross-helicity twines two continuous linear conductors as shown in Figure 4, constitutes external electrode 9.The preferred diameter of above-mentioned linear conductor is the metal material copper wire of 0.08mm, the external electrode 9 that this copper wire constitutes both can form the back at transparency conducting layer 7 and twine, also can on the luminescent substance layer 5 before transparency conducting layer 7 forms, twine, excellent contact be arranged as long as guarantee external electrode 9 and transparency conducting layer 7.

Step 5: the outside at transparency conducting layer 7 applies the transparent flexible polymer, constitutes protective layer 11.Above-mentioned transparent flexible polymer is the Polyurethane material preferably.The optimum thickness of protective layer 11 is 0.4～0.8mm.

Claims (8)

1. electro luminescence line, include the central electrode (1) that constitutes by at least one strand form conductor, the outside of central electrode (1) is coated with the insulating medium layer (3) that is made of electrical insulating material, the outside of insulating medium layer (3) is coated with the luminescent substance layer (5) that is made of fluorescent powder and binder mixtures, the outside of luminescent substance layer (5) is coated with the transparency conducting layer (7) by nano-level conducting material (71) formation of particle diameter≤20nm, the nano-level conducting material (71) that constitutes transparency conducting layer (7) also is filled in the fluorescent powder and the formed hole of binder mixtures (51) that constitutes luminescent substance layer (5) simultaneously, and transparency conducting layer (7) is gone up spiral and is wound with the external electrode (9) that is made of at least one linear conductor.

2. electro luminescence line according to claim 1 is characterized in that: the particle diameter≤10nm of the nano-level conducting material of said formation transparency conducting layer (7).

3. electro luminescence line according to claim 1 is characterized in that: the particle diameter≤5nm of the nano-level conducting material of said formation transparency conducting layer (7).

4. electro luminescence line according to claim 1 is characterized in that: the particle diameter of the nano-level conducting material of said formation transparency conducting layer (7) is 0.1～2nm.

5. according to each described electro luminescence line in the claim 1 to 4, it is characterized in that: the nano-level conducting material of said formation transparency conducting layer (7) is a tin indium oxide.

6. according to each described electro luminescence line in the claim 1 to 4, it is characterized in that: the electrical insulating material of said formation insulating medium layer (3) is a resin lacquer mixture.

7. according to each described electro luminescence line in the claim 1 to 4, it is characterized in that: said transparency conducting layer (7) is gone up cross-helicity and is wound with the external electrode (9) that is made of two continuous linear conductors.

8. according to each described electro luminescence line in the claim 1 to 4, it is characterized in that: the outside of said transparency conducting layer (7) also is coated with the protective layer (11) that is made of the transparent flexible polymer.

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